CN220928166U - Remove soil pick-up treatment facility - Google Patents

Abstract

The utility model discloses mobile sewage suction treatment equipment, which comprises a trailer, wherein a mechanical arm is arranged on the trailer, a grab bucket is arranged on the mechanical arm and matched with an inspection well cover of an inspection well, a retaining box and a storage tank are also arranged on the trailer, a vibrating screen is arranged above the retaining box and the storage tank, the feeding end of the vibrating screen is connected with one end of a sewage suction pump through a feeding pipeline, the other end of the sewage suction pump is connected with the inspection well through a material suction pipeline, and a liquid outlet at the bottom of the retaining box is connected with the inspection well through a liquid return pipeline; according to the utility model, the vibrating screen is arranged on the trailer, so that the sucked sewage can be subjected to solid-liquid separation, the amount of the sucked sewage is increased, the labor intensity of workers can be greatly saved through the mechanical arm and the grab bucket, and the sewage suction treatment efficiency is also improved.

Description

Remove soil pick-up treatment facility

Technical Field

The utility model relates to the technical field of sewage suction treatment of inspection wells, inspection wells and catch basins, in particular to mobile sewage suction treatment equipment.

Background

At present, the operation processes of pumping, screening treatment, shipment and excretion of screened objects and the like of sludge and sewage in urban catch basins and inspection wells are mostly carried out through manual cleaning work, and the process has the advantages of high labor intensity, high risk and lower working efficiency. At present, a sewage suction process is carried out through a sewage suction truck, such as a sewage suction truck for a CN 215520963U-mine, however, a screening system does not exist, and the absorbed sewage cannot be subjected to solid-liquid separation, so that the tank body of the sewage suction truck is easy to fill, and the sewage suction amount is low.

Disclosure of Invention

The utility model aims to overcome the defects and provide mobile sewage suction treatment equipment so as to solve the problems in the background technology.

The utility model aims to solve the technical problems, and adopts the technical scheme that: the utility model provides a remove soil pick-up treatment facility, includes the trailer, be equipped with the arm on the trailer, be equipped with the grab bucket on the arm, grab bucket and the inspection shaft lid cooperation of inspection shaft, still be equipped with on the trailer and hold back case and storage tank, hold back case and storage tank top and erect the shale shaker, the shale shaker feed end is connected with soil pick-up pump one end through the feeding pipeline, and the soil pick-up pump other end is connected with the inspection shaft through the material suction pipeline, hold back case bottom liquid outlet and be connected with the inspection shaft through the liquid return pipeline.

Preferably, the liquid return pipeline is provided with a first valve.

Preferably, the feeding pipeline is further connected with one end of a feed back pipeline, the other end of the feed back pipeline is connected with the inspection well, and a second valve is arranged on the feed back pipeline.

Preferably, the grab bucket also cooperates with a soil pick-up pump.

Preferably, the vibrating screen is of an elliptical vibrating screen structure, a retaining box is arranged below a liquid outlet at the bottom of the vibrating screen, and a storage tank is arranged below a slag outlet at the side of the vibrating screen.

The utility model has the beneficial effects that: according to the utility model, the vibrating screen is arranged on the trailer, so that the sucked sewage can be subjected to solid-liquid separation, the amount of the sucked sewage is increased, the labor intensity of workers can be greatly saved through the mechanical arm and the grab bucket, and the sewage suction treatment efficiency is also improved.

Drawings

Fig. 1 is a schematic view of a structure of a mobile soil pick-up treatment apparatus;

Fig. 2 is a schematic diagram of the connection structure of the interception box, the storage tank, the vibrating screen and the inspection well during the dirt sucking operation.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the specific examples.

As shown in fig. 1 and 2, a mobile sewage suction treatment device comprises a trailer 1, wherein a mechanical arm 2 is arranged on the trailer 1, a grab bucket 3 is arranged on the mechanical arm 2, the grab bucket 3 is matched with an inspection well cover of an inspection well 4, a holding-up box 5 and a storage tank 6 are further arranged on the trailer 1, a vibrating screen 7 is erected above the holding-up box 5 and the storage tank 6, a feeding end of the vibrating screen 7 is connected with one end of a sewage suction pump 9 through a feeding pipeline 8, the other end of the sewage suction pump 9 is connected with the inspection well 4 through a sewage suction pipeline 10, and a liquid outlet at the bottom of the holding-up box 5 is connected with the inspection well 4 through a liquid return pipeline 11.

Preferably, the liquid return line 11 is provided with a first valve 12. By opening the first valve 12, the liquid accumulated in the holding tank 5 can be caused to flow back from the liquid return line 11 into the inspection well 4.

Preferably, the feeding pipeline 8 is further connected with one end of a material return pipeline 13, the other end of the material return pipeline 13 is connected with the inspection well 4, and a second valve 14 is arranged on the material return pipeline 13. In this embodiment, when the flow of material in the feed line 8 is excessive, the second valve 14 may be opened to form a split flow so that part of the material flows back into the inspection well 4.

Preferably, the grapple 3 is also fitted with a suction pump 9. After the design is adopted, the grab bucket 3 is used for grabbing the sewage suction pump 9, the position of the sewage suction pump 9 can be fixed, and in addition, the sewage suction process of some sewage suction pumps needs to run below the liquid level, so that the sewage suction pump 9 can be grabbed and placed below the liquid level in the inspection well 4.

Preferably, the vibrating screen 7 is an elliptical vibrating screen structure, a retaining box 5 is arranged below a liquid outlet at the bottom of the vibrating screen structure, and a storage tank 6 is arranged below a side slag outlet of the vibrating screen structure. More preferably, the vibrating screen 7 is provided with two layers of screen surfaces, sewage enters an upper layer screen surface of the elliptical vibrating screen to screen out massive media and windings, sewage passing through the upper layer screen surface is further screened out through a lower layer screen surface, fine mud on the screen surface is screened out, the sewage under the screen enters a cut-off box 5 under the screen, and massive media, windings and fine mud fall into a storage tank 6 from a lateral slag hole;

The working principle of the embodiment is as follows:

Firstly, the trailer 1 integrally moves to one side of an inspection well 4, then a mechanical arm 2 is started, an inspection well cover of the inspection well 4 is grabbed and placed to one side through a grab bucket 3, then a sewage suction pump 9 is grabbed and placed below the liquid level in the inspection well 4 through the grab bucket 3, the sewage suction pump 9 is started, so that mixed materials of sewage and sludge in the inspection well 4 are pumped out of the mixed materials, sequentially pass through a material suction pipeline 10 and a material feeding pipeline 8 and enter a vibrating screen 7, the upper layer screening surface screens out massive media and windings, the sewage passing through the upper layer screening surface is further screened out through the lower layer screening surface, the screened sewage enters a cut-off box 5 below the screen, and the massive media, windings and the fine mud fall into a storage tank 6 from a side slag hole; when the material flow in the feeding pipeline 8 is too large, the second valve 14 can be opened to form a split flow, so that part of the material flows back into the inspection well 4; by opening the first valve 12, the liquid accumulated in the holding tank 5 can be caused to flow back from the liquid return line 11 into the inspection well 4. Through the process, the sludge in the inspection well 4 can be continuously cleaned, the cleaning efficiency is high, and the sludge absorption amount is high because the absorbed sewage and the sludge are subjected to the solid-liquid separation process.

The above embodiments are merely preferred embodiments of the present utility model, and should not be construed as limiting the present utility model, and the embodiments and features of the embodiments of the present utility model may be arbitrarily combined with each other without collision. The protection scope of the present utility model is defined by the claims, and the protection scope includes equivalent alternatives to the technical features of the claims. I.e., equivalent replacement modifications within the scope of this utility model are also within the scope of the utility model.

Claims (5)

1. The utility model provides a remove soil pick-up treatment facility, includes trailer (1), be equipped with arm (2) on trailer (1), be equipped with grab bucket (3) on arm (2), the inspection shaft lid cooperation of grab bucket (3) and inspection shaft (4), its characterized in that: the utility model discloses a sewage treatment device, including trailer (1), including box (5) and storage silo (6) are held back to last being equipped with of trailer (1), hold back box (5) and storage silo (6) top and erect shale shaker (7), shale shaker (7) feed end is connected with sewage suction pump (9) one end through feeding pipeline (8), and sewage suction pump (9) other end is connected with inspection shaft (4) through sucking material pipeline (10), hold back box (5) bottom liquid outlet and be connected with inspection shaft (4) through liquid return pipeline (11).

2. A mobile soil pick-up treatment apparatus as claimed in claim 1, wherein: the liquid return pipeline (11) is provided with a first valve (12).

3. A mobile soil pick-up treatment apparatus as claimed in claim 1, wherein: the feeding pipeline (8) is further connected with one end of the feed back pipeline (13), the other end of the feed back pipeline (13) is connected with the inspection well (4), and the feed back pipeline (13) is provided with a second valve (14).

4. A mobile soil pick-up treatment apparatus as claimed in claim 1, wherein: the grab bucket (3) is also matched with a sewage suction pump (9).

5. A mobile soil pick-up treatment apparatus as claimed in claim 1, wherein: the vibrating screen (7) is of an elliptical vibrating screen structure, a retaining box (5) is arranged below a liquid outlet at the bottom of the vibrating screen, and a storage tank (6) is arranged below a slag outlet at the side part of the vibrating screen.